Shoe cleaning apparatus

ABSTRACT

A shoe cleaning apparatus and method of attaching the same to a vehicle includes a brush assembly having at least one brush unit. A linkage includes a first end selectively coupled to the brush assembly and a second end selectively coupled to a hitch receiver of the vehicle. A hitch sleeve is inserted into the hitch receiver and is secured in an installed position. In an alternate embodiment, a shoe cleaning apparatus and method of attaching the same to a hitch receiver of a vehicle includes a frame having a forward end including a mounting arm and at least one brush unit coupled to the frame. A coupling element couples the mounting arm of the frame to the hitch receiver of the vehicle. A mounting aperture of the frame is aligned with an aperture formed on the hitch receiving portion of the vehicle defining a mounting axis. The mounting arm is secured to the hitch receiving portion at the mounting axis.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of U.S. Provisional Application No. 60/485,454, filed on Jul. 8, 2003. The disclosure of the above application is incorporated herein by reference.

FIELD OF THE INVENTION

The present invention relates to tread cleaners for shoes and more specifically to a tread cleaning apparatus for use with a vehicle hitch.

BACKGROUND OF THE INVENTION

Shoes are typically provided with a traction consistent to improve grip for a desired surface. For example, cleats are incorporated on outdoor athletic shoes such as soccer, football and track for example. Similarly, golf shoes are provided with spikes or soft spikes for improving a golfers grip with the ground while swinging. A similar strategy is used for construction shoes. A large traction surface is usually provided having deep grooves for negotiating variable terrain.

While these shoes provide improved traction on a given surface, they tend to encourage ground material to become lodged or stuck in the traction detail of the shoe. In this way, grass, mud, dirt, gravel and other debris can build up on the traction over time which can degrade the performance of the shoe and become a nuisance. As a result, it is difficult to keep a vehicle interior clean when using dirty shoes. In particular, in order to prevent the debris from being tracked into a vehicle it is necessary to adequately remove the debris from the shoes or remove the shoes altogether prior to entering the vehicle. Such a requirement can be awkward and inconvenient.

SUMMARY OF THE INVENTION

A shoe cleaning apparatus and method of attaching the same to a vehicle includes a brush assembly having at least one brush unit. A linkage includes a first end selectively coupled to the brush assembly and a second end selectively coupled to a hitch receiver of the vehicle. A hitch sleeve is inserted into the hitch receiver and is secured in an installed position.

In other features the linkage includes a connector sleeve having a first end selectively coupled to the brush assembly and a second end cooperating with a receiving end of the hitch sleeve. The receiving end of the hitch sleeve includes at least one mounting aperture thereon for aligning with one of a plurality of mounting apertures incorporated on the connector sleeve in an installed position. A locating element is selectively inserted through a desired mounting aperture of the at least one mounting aperture and a corresponding one of the plurality of mounting apertures to preclude relative movement of the hitch sleeve and the connector sleeve in the installed position.

A shoe cleaning apparatus and method of attaching the same to a vehicle includes a frame having a forward end including a mounting arm and at least one brush unit coupled to the frame. A coupling element couples the mounting arm of the frame to the hitch receiver of the vehicle. A mounting aperture of the frame is aligned with an aperture formed on the hitch receiving portion of the vehicle defining a mounting axis. The mounting arm is secured to the hitch receiving portion at the mounting axis.

In other features the frame includes a linking aperture formed on a rearward end thereof. The linking aperture is adapted to cooperate with a tow bar in a towing position for towing a second vehicle.

Further areas of applicability of the present invention will become apparent from the detailed description provided hereinafter. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will become more fully understood from the detailed description and the accompanying drawings, wherein:

FIG. 1 is a perspective view of the tread cleaner according to a first embodiment shown in an attached position with a vehicle hitch receiver;

FIG. 2 is an exploded view of the tread cleaner of FIG. 1;

FIG. 3 is a side view of the tread cleaner of FIG. 1 shown with available storage positions in phantom;

FIG. 4 is a perspective view of the tread cleaner according to a second embodiment shown assembled to a hitch receiver of an alternate vehicle;

FIG. 5 is a perspective view of the tread cleaner of FIG. 4 shown assembled to an alternate hitch receiver;

FIG. 6 is a perspective view of the tread cleaner of FIG. 4 according to an alternate embodiment; and

FIG. 7 is a side view of the tread cleaner of FIG. 4 shown with a link arm coupled to a second vehicle.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The following description of the preferred embodiment(s) is merely exemplary in nature and is in no way intended to limit the invention, its application, or uses.

With initial reference to FIGS. 1 and 2, a tread cleaner according to the teachings of the present invention is shown and generally identified at reference 10. The tread cleaner 10 generally comprises a linkage 14 for selectively coupling a brush assembly 18 to a hitch receiver 20 on a vehicle 22. The brush assembly 18 includes at least one brush unit 26 mounted to a frame 28. The linkage 14 includes a hitch sleeve 30 adjustably coupled to a connector sleeve 32 extending from the frame 28 of the brush assembly 18.

The hitch sleeve 30 generally includes an insertion end 34 a receiving end 36. The insertion end 34 is adapted to be slidably inserted into the hitch receiver 20 of the vehicle 22. The hitch sleeve 30 comprises a substantially square cross-section having an outer dimension suitable to fit inside an inner dimension of the hitch receiver 20. It is appreciated that the insertion end 34 of the hitch sleeve 30 may comprise a variety of dimensions suitable to cooperate with a desired hitch receiver 20. A mounting aperture 40 is included on the hitch receiver 20 for aligning with a through-hole 42 formed on the hitch sleeve 30. A coupling element or hitch pin 46 extends through the mounting aperture 40 and through-hole 42 locking the hitch sleeve 30 in place. A cotter pin 50 prevents the hitch pin 46 from sliding out of the mounting aperture 40.

With continued reference to FIGS. 1 and 2 and further reference to FIG. 3, the adjustability of the linkage will be described in greater detail. The receiving end 36 of the hitch sleeve 30 comprises a u-channel extending generally perpendicularly to a mounting axis defined by the hitch receiver 20. The u-channel includes a pair of mounting apertures 54 formed thereon for aligning with one of a plurality of through-holes 56 formed on the connector sleeve 32. In this way, the brush assembly 18 may be adjusted to a desired lateral offset with respect to the hitch receiver 20. As such, a user can locate the brush assembly 18 in a preferred height for accessibility during a tread cleaning event. Similarly, the brush assembly 18 may be adjusted to a desired location in a storage position A, B (FIG. 3) while not in use for ground clearance and/or convenience while the vehicle 22 is moving. For example, the connector sleeve 32 may be rotated 180 degrees clockwise (As viewed from FIG. 3) to have the brush assembly 18 assume a position above the hitch receiver 20 (position A). Alternatively, the connector sleeve 32 may be rotated about its axis 180 degrees to assume position B. A dowel pin 60 extends through the desired mounting aperture 54 and through-hole 56 locking the connector sleeve 32 in place. A cotter pin 62 secures the dowel pin 60 in place. Skilled artisans will appreciate that other mechanical configurations may be employed to achieve adjustability between the hitch sleeve 30 and the connector sleeve 32. For example, more or less mounting apertures 54 may be provided on the hitch sleeve 30. Likewise a different amount of through-holes 56 may be provided on the connector sleeve 32.

The brush assembly 18 will now be described in greater detail. The frame 28 is comprised of rigid material such as aluminum, steel or hard plastic for example. The brush units 26 each include a rigid support 66 having a plurality of bristles 68 extending outwardly therefrom. Fasteners 70 couple the brush units 26 to the frame 28 (FIG. 2). A dowel pin 72 and cotter pin 74 arrangement selectively fastens the frame 28 of the brush assembly 18 to the connector sleeve 32 of the linkage 14 (FIG. 3). In this regard, the brush unit 26 may be removed from the linkage 14 and stored inside the vehicle 22 or alternatively be used elsewhere without interrupting the locked relationship of the hitch receiver 20 and the linkage 14. For example, the frame 28 may be removed from the connector sleeve 32 by removing the cotter pin 74 and sliding out the dowel pin 72. The brush assembly 18 then may be placed on the ground for use in any desired location. In operation, a user may place one foot on a first brush unit 26 while swiping the other foot on the adjacent brush unit 26 to maintain balance.

With reference now to FIGS. 4 and 5, a tread cleaner 110 according to a second embodiment will be described. The tread cleaner 110 is configured to cooperate with a hitch receiver 120 of a vehicle such as a golf cart 122. The tread cleaner 110 includes a frame 128 having a mounting arm 130 arranged on a forward end 134. The mounting arm 130 is preferably a continuous extension of the frame 128 made of the same material. It is appreciated however, that the mounting arm may be a distinct component from the frame 128 and connected by way of a fastener.

The mounting arm 130 includes a first and second mounting aperture 142, 144 formed thereon for accommodating two distinct golf cart mounting arrangements as will be described. A rearward end 136 includes a linking aperture 154 for accommodating a link bar 180 when towing a second golf cart 242 (FIG. 7). A brush unit 126 is coupled to the frame 128 by fasteners 170.

Mounting the tread cleaner 110 to a hitch receiver will now be described with reference to the mounting arrangement of FIG. 4. In the mounting arrangement of FIG. 4, the hitch receiver 120 comprises an aperture 140 arranged in the floor 150 of the bag storage area 152 of the cart 122. During assembly, the arm 130 is positioned below the floor 150 of the cart 122. The first mounting aperture 142 (best viewed in FIG. 5) of the arm 130 is aligned with the aperture 140 of the hitch receiver 120. A fastener 160 is then inserted through the mounting aperture 142 and the aperture 140 of the hitch receiver 120 and tightened to a secure fit.

With reference to FIG. 5, the hitch receiver 220 will be described according to a second mounting arrangement. The hitch receiver 220 as shown in FIG. 5 includes a bracket 224 having an aperture 226 formed thereon. The bracket 224 generally includes outer flanges 228 and a stepped down central portion 230. During assembly, the second mounting aperture 144 (best viewed in FIG. 4) of the arm 130 is aligned with the aperture 226 of the hitch receiver 220. While it is shown that the arm 130 is inserted above the stepped down central portion 230, the arm 130 may alternatively mate with the bottom surface of the hitch receiver 220. Next, a fastener 234 is inserted through the second mounting aperture 144 and the aperture 226 of the hitch receiver 220 and tightened to a secure fit.

Turning now to FIG. 6, a brush assembly 310 according to an alternate embodiment is shown wherein like reference numbers increased by 300 are used to designate like components. The brush assembly 310 includes a brush unit 326, a mounting arm 330, a linking aperture 354 and a ball washer device 340 coupled thereto. It is contemplated that other accessories may be secured to frame 328 of the brush assembly 310 in place of the brush unit 326 and/or ball washer 340 such as a seed container for divot repair for example.

With reference to FIG. 7, a tread cleaner 110 cooperating with a link bar 180 is shown towing a second golf cart 242. Specifically, a forward end 190 of the tow bar 180 is coupled to the tread cleaner 110 at the linking aperture 154 by way of a coupling member 192. Preferably, the coupling member 192 will allow relative rotational movement of the tread cleaner 110 and the tow bar 180 such that the first and second golf cart 122, 242 may turn relative to each other. A rearward end 194 of the tow bar 180 is coupled to the front end 244 of the second golf cart 242 by way of a coupling member 198. As shown, a front end linking bracket 246 extends from the forward end 244 of the second golf cart 242. It is contemplated however that the tow bar 180 may be coupled to alternative mounting areas on the front end 244 of the second cart 242 such as a front bumper 250 for example.

Those skilled in the art can now appreciate from the foregoing description that the broad teachings of the present invention can be implemented in a variety of forms. For example, the dowel pins described herein may be replaced by other fasteners such as bolts. Therefore, while this invention has been described in connection with particular examples thereof, the true scope of the invention should not be so limited since other modifications will become apparent to the skilled practitioner upon a study of the drawings, the specification and the following claims. 

1. A shoe cleaning apparatus for use with a vehicle comprising: a brush assembly having at least one brush unit thereon; and a linkage having a first end including a connector sleeve selectively coupled to said brush assembly and a second end selectively coupled to a hitch receiver of the vehicle in an installed position; wherein said linkage includes a hitch sleeve having an insertion end cooperating with said hitch receiver and a receiving end selectively coupled to said connector sleeve, wherein said connector sleeve is movable about its axis and adapted to be coupled to said hitch sleeve in a plurality of laterally offset positions.
 2. The shoe cleaning apparatus of claim 1 wherein said receiving end of said hitch sleeve includes at least one mounting aperture thereon for aligning with one of a plurality of mounting apertures incorporated on said connector sleeve in said installed position.
 3. The shoe cleaning apparatus of claim 2 wherein a locating element is selectively inserted through a desired mounting aperture of said at least one mounting aperture and a corresponding one of said plurality of mounting apertures to preclude relative movement of said hitch sleeve and said connector sleeve in said installed position.
 4. The shoe cleaning apparatus of claim 3 wherein a lateral offset of said brush assembly and said receiver is selectively adjustable based on selection of a desired one of said plurality of mounting apertures.
 5. The shoe cleaning apparatus of claim 1 wherein said receiving end of said hitch sleeve extends substantially perpendicularly to a mounting axis defined by said hitch receiver.
 6. The shoe cleaning apparatus of claim 5 wherein said receiving end of said hitch sleeve comprises a u-channel.
 7. The shoe cleaning apparatus of claim 1 wherein said hitch sleeve includes an insertion end having a through-hole aligned with a mounting aperture formed on said receiver in said installed position, wherein a locating element extends through said through-hole and said mounting aperture in said installed position.
 8. A shoe cleaning apparatus for use with a vehicle comprising: a brush assembly having at least one brush unit thereon; and a linkage having a first end selectively coupled to said brush assembly and a second end selectively coupled to a hitch receiver of the vehicle in an installed position; wherein said linkage includes a hitch sleeve having an insertion end cooperating with said hitch receiver and a receiving end accepting said brush assembly, said receiving end extending substantially perpendicularly to a mounting axis defined by said hitch receiver.
 9. The shoe cleaning apparatus of claim 8 wherein said linkage includes a connector sleeve having a first end selectively coupled to said brush assembly and a second end cooperating with a receiving end of said hitch sleeve.
 10. The shoe cleaning apparatus of claim 9 wherein said receiving end of said hitch sleeve includes at least one mounting aperture thereon for aligning with one of a plurality of mounting apertures incorporated on said connector sleeve in said installed position.
 11. The shoe cleaning apparatus of claim 10 wherein a locating element is selectively inserted through a desired mounting aperture of said at least one mounting aperture and a corresponding one of said plurality of mounting apertures to preclude relative movement of said hitch sleeve and said connector sleeve in said installed position.
 12. The shoe cleaning apparatus of claim 11 wherein a lateral offset of said brush assembly and said receiver is selectively adjustable based on selection of a desired one of said plurality of mounting apertures.
 13. A shoe cleaning apparatus for use with a vehicle comprising: a brush assembly having at least one brush unit thereon; and a linkage having a first end selectively coupled to said brush assembly and a second end selectively coupled to a hitch receiver of the vehicle in an installed position; wherein said linkage includes a hitch sleeve having an insertion end defining a substantially square cross-section adapted to be received within said hitch receiver, said hitch sleeve including a through-hole adapted to be aligned with a mounting aperture formed on said hitch receiver in said installed position, wherein a locating element extends through said through-hole and said mounting aperture in said installed position.
 14. The shoe cleaning apparatus of claim 13 wherein said linkage includes a connector sleeve having a first end selectively coupled to said brush assembly and a second end cooperating with a receiving end of said hitch sleeve.
 15. The shoe cleaning apparatus of claim 14 wherein said receiving end of said hitch sleeve includes at least one mounting aperture thereon for aligning with one of a plurality of mounting apertures incorporated on said connector sleeve in said installed position.
 16. The shoe cleaning apparatus of claim 15 wherein a locating element is selectively inserted through a desired mounting aperture of said at least one mounting aperture and a corresponding one of said plurality of mounting apertures to preclude relative movement of said hitch sleeve and said connector sleeve in said installed position.
 17. The shoe cleaning apparatus of claim 16 wherein a lateral offset of said brush assembly and said receiver is selectively adjustable based on selection of a desired one of said plurality of mounting apertures. 